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121 related items for PubMed ID: 11334667

  • 1. Stability of an extreme halophilic alkaline phosphatase from Halobacterium salinarium in non-conventional medium.
    Marhuenda-Egea FC, Piera-Velázquez S, Cadenas C, Cadenas E.
    J Biotechnol; 2001 May 18; 87(3):255-61. PubMed ID: 11334667
    [Abstract] [Full Text] [Related]

  • 2. Kinetic regulation of an alkaline p-nitrophenylphosphate phosphatase from Halobacterium salinarum in low water system by Mn2+ and monovalent cations.
    Marhuenda-Egea FC, Piera-Velázquez S, Cadenas C, Cadenas E.
    FEMS Microbiol Lett; 2001 May 01; 198(2):111-5. PubMed ID: 11430399
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  • 3. An extreme halophilic enzyme active at low salt in reversed micelles.
    Marhuenda-Egea FC, Piera-Velázquez S, Cadenas C, Cadenas E.
    J Biotechnol; 2002 Feb 14; 93(2):159-64. PubMed ID: 11738722
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  • 4. Increased stability of malate dehydrogenase from Halobacterium salinarum at low salt concentration in reverse micelles.
    Piera-Velázquez S, Marhuenda-Egea F, Cadenas E.
    Extremophiles; 2002 Oct 14; 6(5):407-12. PubMed ID: 12382117
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  • 5. Mechanism of adaptation of an atypical alkaline p-nitrophenyl phosphatase from the archaeon Halobacterium salinarum at low-water environments.
    Marhuenda-Egea FC, Piera-Velázquez S, Cadenas C, Cadenas E.
    Biotechnol Bioeng; 2002 Jun 05; 78(5):497-502. PubMed ID: 12115118
    [Abstract] [Full Text] [Related]

  • 6. Reverse micelles in organic solvents: a medium for the biotechnological use of extreme halophilic enzymes at low salt concentration.
    Marhuenda-Egea FC, Piera-Velázquez S, Cadenas C, Cadenas E.
    Archaea; 2002 Sep 05; 1(2):105-11. PubMed ID: 15803648
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  • 9. Alkaline p-nitrophenylphosphate phosphatase activity from Halobacterium halobium. Selective activation by manganese and effect of other divalent cations.
    Bonet ML, Llorca FI, Cadenas E.
    Int J Biochem; 1992 May 05; 24(5):839-45. PubMed ID: 1317306
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  • 14. Purification and characterization of a mesohalic catalase from the halophilic bacterium Halobacterium halobium.
    Brown-Peterson NJ, Salin ML.
    J Bacteriol; 1995 Jan 05; 177(2):378-84. PubMed ID: 7814327
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  • 15. Superactivity and phase-sensitivity of potato acid phosphatase entrapped in reverse micelles.
    Lalitha J, Mulimani VH.
    Biochem Mol Biol Int; 1996 Oct 05; 40(3):571-8. PubMed ID: 8908367
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  • 16. Chromatographic behaviour in reversed-phase high-performance liquid chromatography with micellar and submicellar mobile phases: effects of the organic modifier.
    Fischer J, Jandera P.
    J Chromatogr B Biomed Appl; 1996 May 31; 681(1):3-19. PubMed ID: 8798907
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  • 17. An improved method for the flow-injection determination of iodine using the luminol chemiluminescence reaction in a reversed micellar medium of cetyltrimethylammonium chloride in 1-hexanol-cyclohexane.
    Fujiwara T, Mohammadzai IU, Kojima M, Kumamaru T.
    Anal Sci; 2006 Jan 31; 22(1):67-71. PubMed ID: 16429775
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  • 18. Electrostatic and hydrophobic interactions play a major role in the stability and refolding of halophilic proteins.
    Arakawa T, Tokunaga M.
    Protein Pept Lett; 2004 Apr 31; 11(2):125-32. PubMed ID: 15078200
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  • 19. Formation of wormlike micelle in a mixed amino-acid based anionic surfactant and cationic surfactant systems.
    Shrestha RG, Shrestha LK, Aramaki K.
    J Colloid Interface Sci; 2007 Jul 01; 311(1):276-84. PubMed ID: 17368470
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  • 20. Molecular adaptation: the malate dehydrogenase from the extreme halophilic bacterium Salinibacter ruber behaves like a non-halophilic protein.
    Madern D, Zaccai G.
    Biochimie; 2004 Jul 01; 86(4-5):295-303. PubMed ID: 15194233
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